Renewable energy power system

ABSTRACT

A renewable energy power system includes activating wind turbine apparatus generating renewable energy power and thereby a controller is employed to furnish desired voltage to vehicle applications as well as a household or building applications also, a controller directs unspent energy to necessitate other operations or send net energy back to the electrical grid, and as a consequence, electric vehicle recharge no longer applies plus, grid demand is reduced therefore energy technology for transportation, and habitat, and industry can improve.

CROSS REFERENCED TO RELATED APPLICATIONS

Application Ser. No. 11/079,729, Publication number: US 2006/0210400 A1, issued: Hampl, Filing date: Mar. 15, 2005

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH & DEVELOPMENT

Non Applicable

REFERENCE TO SEQUENCING LISTING, TABLE, OR COMPUTER PROGRAM CD

Non Applicable

BACKGROUND OF THE INVENTION

1. Technical Field

This application relates to a system comprising a wind turbine coupled with electricity generator apparatus to generate renewable energy power thereby, controller(s) furnish renewable energy power directly to electrical devices inside or outside vehicle(s) and building(s).

2. Related Art

As related art search discloses, it is generally well known there have not been produced over the past years a vast quantity of generator alternatives utilizing wind power to furnish wind generated electrical energy for buildings and for electric transportation. Related embodiments may be similar but not as effective and there for comparison are, wind powered vehicles designed to furnish electrical energy power to one motor or recharge battery and storage. Other vehicles rely on petroleum powered engines to charge the battery pack. Also, Hybrid vehicles, electric vehicles and buildings rely on electrical grid power, which uses coal. Agriculturally grown bio fuels and mirror farms waste water. Transmission power lines, solar farms, giant wind turbine farms, and underwater turbine generators have a negative impact on natural habitat and wildlife from excessive infrastructure.

The related art above describes a wind turbine with a spiral blade to crank a generator. The related art above does not discuss or describe employing a renewable energy power system comprising more than one wind turbine with two coupled electricity generating apparatus one that rotates in a clockwise direction, and the other rotates in a counter clockwise direction, and therefore both generate electrical voltage having (A/C) or (D/C) range options.

The related art above does not discuss employing a renewable energy power system controller that provides a specific step to monitor a wind turbine sensor so shaft rotational torque is per predetermined torque calibrations, thereby to break and prevent over rotational damage, and therefore correctly operate auxiliary wind turbine apparatus to therefore produce renewable electric energy power.

The related art above does not discuss or describe employing a renewable energy power system that utilizes a controller to furnish a desired voltage for vehicle applications, and can furnish ample voltage directly to an electric motor, or directly to building applications and also, monitors batteries and battery charging assembly. Also a controller manages secondary power storage and unspent electrical energy to dump load to furnish a desired voltage for vehicle operations, and furnish ample voltage directly to an electric motor or directly to building applications and furnish emergency power for another desired use.

SUMMARY OF THE INVENTION

The present invention provides various advantages as described below in which a renewable energy power system furnishes electricity for transportation or a building thereby, multiple wind turbine assemblies are placed where wind energy is concentrated and accelerates within, whereby a rod extending there through is rotationally driven and thereby providing torque to crank connecting both electricity generating apparatus located on each shaft ending. Subsequently rotating on one shaft end is a generating electricity device having a clockwise rotational direction and also a coupled onto the other shaft end is a generating electricity device having a counter clockwise rotational direction also both have a desired (A/C) or (D/C) voltage range option.

A renewable energy power system comprising a wind turbine coupled with electricity generator apparatus to generate renewable energy power furthermore, controller(s) thereby furnish electrical energy power to a vehicle and a building therefore contents and electrical applications operate.

A renewable energy power system employs renewable energy power for the transportation industry and the shipping industry, manufacturing industries and for other modes of transportation having a commercial design employing at least one system.

For the purpose of improving energy technology for a recreational vehicle, or truck, or vessel, more than one wind turbine and electricity generator assemblage can be employed for power storage and therefore a controller to furnish power to at least one electric motor having a desired voltage.

A renewable energy power system whereby employing a method of operation comprising a vehicle controller sending ample voltage directly to an electric motor and having equivalent voltage to properly operate, and thereby vehicle function is carried out, and said controller enables secondary battery storage providing power for transportation applications and also said controller can direct unspent power to dump load and send power back to the electrical grid as a means to benefit the consumer.

A method for controller mode to facilitate a renewable energy power system thereby having a controller to furnish a desired voltage for vehicle applications, and furnish ample voltage directly to an electric motor, or directly to building applications, and also monitors batteries and battery charging assembly. Also a controller manages secondary power storage and directs unspent electrical energy to dump load to furnish a desired voltage for vehicle operations, and furnish ample voltage directly an electric motor or also, furnish ample voltage directly to a building application as well as furnish emergency power and electrical power via cable or plug, and supplies secondary battery storage for another desired use.

A renewable energy power system such as this, can be considered a battery pack free system, unlike vehicles that depend on expensive and heavy lithium like battery systems that are rapidly spent. Accordingly, my system employs a minimum amount of battery storage weight.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other objects and advantages of the present invention will become more fully apparent from the following detailed description when read in conjunction with the accompany drawings with like reference numerals indicating corresponding parts throughout, wherein:

FIG. 1, a renewable energy power system illustration of a wind turbine assembly 10.

FIG. 2, a renewable energy power system illustration of an example of a method configuration for vehicle transportation 18.

FIG. 3, a renewable energy power system illustration of an example of a method configuration for a household or building 20.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Hereinafter, a renewable energy power system of the embodiments in the present invention will be described in details with reference to the drawings. The identical parts in the drawings are assigned the same reference numerals.

Referring now in greater detail in FIG. 1, a renewable energy power system illustrates a configuration a single wind turbine includes wherein, a turbine framework 1, an elongated stabilized shaft 2, extending there through and can thereby rotate about an axis also having a control means for engaging or disengaging a brake to prevent mechanical damage (not shown), and blade 5 a, and blade 5 b, shaft bearings 3, and 4, coupled with duo electricity generators 6, and 7, and encasements 9 a, 9 b, and cable connections 8, and are therefore considered a wind turbine assembly 10, thereby to transfer energy for a desired rotational speed and torque to crank both connecting electricity generating apparatus 6, rotating in a clockwise direction and also, electricity generating apparatus 7, rotating in a counter clockwise direction and therefore located on each said shaft 2, ending and, also, both connecting electricity generators 6, 7, having a desired voltage range option, and subsequently couples with a controller 11, and also, for a building application, said wind turbine shaft 2, can include a coupled gear box (not shown).

Referring now in greater detail in FIG. 2, a renewable energy power system illustrates an exampled method configuration for transportation vehicle 18, is to move forward thereby activating said wind turbine assembly 10, and thus electrical energy travels through said conductive cables 8, located throughout said system and subsequently couples with said controller 11, to furnish a desired voltage for vehicle 18, applications, and electrical devices, and can furnish ample voltage directly to at least one electric motor 15, and monitors batteries 13, 14, and battery charging assembly, a dump load controller 16, manages secondary power storage 13, and unspent electrical energy to furnish a desired voltage for said vehicle 18, operations, and furnishing ample voltage directly to said electric motor 15, or directly to building applications 20, and furnish emergency power to dump load whereby providing an out source power cord with plug 17, for emergency power access or unspent power via access cable 19, for another use.

Referring now in greater detail in FIG. 3, a renewable energy power system illustrates an example of a method configuration for a household or building 20, having a structure surface and therefore is to support said wind turbine assemblage 10, and also said wind turbine shaft 2, can include a coupled gear box (not shown), therefore said controller mode is to monitor systems for electricity generating apparatus 6, and 7, and can furnish ample voltage directly to building applications thereby this is as means to provide local electricity power to operate electrical applications, said controller mode is to monitor systems within said battery charger device 14, thereby to charge battery 12, and secondary battery storage 13, more so, both connecting electricity generators apparatus 6, 7, having a desired voltage range option, and subsequently couples with said controller 11, to benefit a consumer via electrical cable plug 19, as well as said dump load controller 16, directs unspent power to be accessed for emergency power via cable and plug 19 for consumer applications or whereby is sent back to the electrical grid.

While various embodiments have been described, it is apparent to those skilled in the art that many more entailed nuances are possible within the spirit of the invention. 

1. A renewable energy power system comprising: a wind turbine frame, a shaft, a set of blades, and bearings, and therefore having a characteristic design, size, and employing at least one wind turbine assembly positioned horizontally or vertically to capture wind velocity to activate, both, a clockwise, and also a counter clockwise rotating (A/C) or (D/C) electricity generator or alternator apparatus coupled whereon, each having a characteristic design, size and may couple with a protective encasement and for the purpose to generate renewable energy power, and said controller manages rotational status for a wind turbine brake (not shown), and, an internal and external cable connection assembly, and, a controller manages activating wind turbine apparatus generating renewable energy power to furnish desired voltage to vehicle applications as well as a household or building applications also, a controller directs unspent energy to necessitate other operations or send net energy back to the electrical grid, and to, at least one battery with a battery charger device, therefore having a characteristic design, size, and also, secondary battery storage; a vehicle is to travel forward thereby activating wind turbine assemblage; a building is to capture wind velocity, and, a dump load controller thereby directs status of said secondary battery storage and redirects unspent electricity energy to dump load whereby providing cable and an out source power cord with plug for emergency power or for another desired use.
 2. According to claim 1, a renewable energy power system employing a method of vehicle operation wherein, connecting auxiliary wind turbine apparatus which are supplied with sensor connections thereby a controller directs to reduce or induce torque as per pre determined torque calibrations to prevent over rotational damage and break to operate correctly thereby, a wind turbine assembly becomes operative while vehicle is in motion, and therefore allowing wind speed to provide rotation and torque to rotate said rotor shaft and enable external electricity generating apparatus to operate, therefore providing controlled electric power to operate an electric motor, and means for a vehicle to perform in an operative state, and also including a dump load apparatus having a control panel which monitors power to the secondary battery storage and charging assembly as well as redirects unspent electricity energy to dump load, whereby providing an out source power cord with plug for emergency power thereby, said controller sends renewable energy power to at least one electric motor from said secondary battery storage and furnishes power for a vehicle to perform in an operative state, or for another desired use such as transportation, shipping, manufacturing, and other industry and having an altered design which can be reshaped, reduced or enlarged, multiplied, stacked, connected together or affix to an outer supportive surface, or a building.
 3. According to claims 1, and 2, a renewable energy power system employing a method of vehicle operation wherein, a wind turbine assembly supplies electric power to operate an electronic controller, which directs electric power directly to at least one battery and battery charging assembly moreover, having a dump load assembly and controller 16, which monitors power to the battery storage and charging assembly and option for redirecting unspent electricity to dump load for emergency power and send unspent power to a building for consumer usage or transfer back to the utility company power grid.
 4. A renewable energy power system according to claims 1-3, a vehicle, transportation mode, shipping industry, sport craft, and a vessel, also as well as a building can thereby have a protective moisture resistant encasement and cables, and also, a system such as this benefits production, commercial and manufacturing industries therefore can employ more than one sustainable renewable energy power system with said devices meeting a specification design, size, shape and having modified parts and pieces.
 5. According to claims 1-4, a method of application for a building, a renewable energy power system employs a controller to manage at least one wind turbine assembly positioned horizontally or vertically to capture wind velocity and thereby to crank a clockwise and a counter clockwise rotating generator or alternator having a desired voltage range and therefore to generate renewable energy power, and thereby said controller regulates voltage to send directly to monitor panel for direct use or store unspent energy in more than one battery assembly employing battery charging device, and also, store in secondary battery assemblage, therefore renewable energy power is available for consumer usage for general applications, and also, said controller monitors and selects an option for redirecting unspent electricity to dump load and thereby sending unspent power back to the electrical grid, so thusly a renewable energy power system is an alternative method to produce clean electrical energy power and thereby can reduce the use of carbon fuels, and vehicle plug-in charging can be no longer required, and thus, reducing the use of carbon fuels, and also, lessening grid dependency. 